A Numerical and Experimental Investigation of Neural Network-Based Intelligent Control of Molding Processes-Reference-Cited by-同舟云学术

A Numerical and Experimental Investigation of Neural Network-Based Intelligent Control of Molding Processes

Published:1997-02-01 Issue:1 Volume:119 Page:88-94
ISSN:1087-1357
Container-title:Journal of Manufacturing Science and Engineering
language:en
Short-container-title:

Author:

Demirci H. H.¹,Coulter John P.¹,Gu¨c¸eri S. I.²

Affiliation:

1. Intelligent Materials and Manufacturing Laboratory, Department of Mechanical Engineering and Mechanics, Lehigh University, Bethlehem, PA 18015

2. Department of Mechanical Engineering, The University of Illinois at Chicago, Chicago, IL 60607

Abstract

The current investigation focused on the development of intelligent injection molding processes by utilizing a neural network based control unit. In this study, the emphasis was on the control of flow front progression during injection molding processes. The progression of a flow front into a mold, cavity is crucial since it dictates the locations of possible air voids and weld lines. It is desired that the flow front progresses towards the vent locations and that weld lines coincide with locations where their quality decreasing influence has a minimum impact on the overall part performance. The intelligent control scheme developed is based on a neural network that was trained with data obtained from a first-principles based process model rather than actual molding experimentation. The control strategy was developed such that one can specify a desired flow progression scheme and the controller will take corrective actions during the molding process to realize this scheme. This is done by controlling the inlet flow rate at various inlet gate locations. Experiments were conducted with a 2-D, complex shaped, mold cavity to test the performance of the control unit during actual injection molding processes. The mold had two inlet gates and three different desired flow progression schemes were considered. In all cases, the first principles model/neural network based control unit was able to steer the flow front along the corresponding desired flow progression path.

Publisher

ASME International

Subject

Industrial and Manufacturing Engineering,Computer Science Applications,Mechanical Engineering,Control and Systems Engineering

Link

http://asmedigitalcollection.asme.org/manufacturingscience/article-pdf/119/1/88/5667720/88_1.pdf

Reference10 articles.

1. Coulter J. P. , and Gu¨c¸eriS. I., 1987, “Resin Impregnation During the Manufacturing of Composite Materials Subject to Prescribed Injection Rate,” Journal of Reinforced Plastics and Composites, Vol. 7, No. 3, pp. 209–217.

2. Demirci H. H. , and CoulterJ. P., 1994a, “Neural Network Based Control of Molding Processes,” Journal of Materials Processing and Manufacturing Science, Vol. 2, No. 3, pp. 335–354.

3. Demirci, H. H., Coulter, J. P., and Burke, L. I., 1994b, “Improved Manufacturing Process Development Using Neural Network Based Control,” Proceedings of Computer Integrated Manufacturing in the Process Industries 1994 Conference.

4. Demirci, H. H., and Coulter, J. P., 1994c, “Intelligent Control of Resin Transfer Molding (RTM) Processes Utilizing Neural Networks and Nonlinear Optimization Methods,” ASME JOURNAL OF ENGINEERING FOR INDUSTRY, in press.

5. Demirci, H. H., and Coulter, J. P., 1994d, “A Comparative Study of Nonlinear Optimization and Taguchi Methods Applied to The Intelligent Control of Manufacturing Processes,” Journal of Intelligent Manufacturing, in press.

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